/**
 * Copyright (c) Streamlit Inc. (2018-2022) Snowflake Inc. (2022-2025)
 *
 * Licensed under the Apache License, Version 2.0 (the "License");
 * you may not use this file except in compliance with the License.
 * You may obtain a copy of the License at
 *
 *     http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 * See the License for the specific language governing permissions and
 * limitations under the License.
 */

import { MockInstance } from "vitest"

import { Delta as DeltaProto, Logo as LogoProto } from "@streamlit/protobuf"

import { NO_SCRIPT_RUN_ID } from "./AppNode.interface"
import { AppRoot } from "./AppRoot"
import { BlockNode } from "./BlockNode"
import { ElementNode } from "./ElementNode"
import {
  block,
  FAKE_SCRIPT_HASH,
  forwardMsgMetadata,
  makeProto,
  text,
} from "./test-utils"
import { TransientNode } from "./TransientNode"
import { ElementsSetVisitor } from "./visitors/ElementsSetVisitor"
import { GetNodeByDeltaPathVisitor } from "./visitors/GetNodeByDeltaPathVisitor"

// prettier-ignore
const BLOCK = block([
  text("1"),
  block([
    text("2"),
  ]),
])

// Initialize new AppRoot with a main block node and three child block nodes - sidebar, events and bottom.
const ROOT = new AppRoot(
  FAKE_SCRIPT_HASH,
  new BlockNode(FAKE_SCRIPT_HASH, [
    BLOCK,
    new BlockNode(FAKE_SCRIPT_HASH),
    new BlockNode(FAKE_SCRIPT_HASH),
    new BlockNode(FAKE_SCRIPT_HASH),
  ])
)

describe("AppRoot", () => {
  describe("AppRoot.empty", () => {
    let windowSpy: MockInstance

    beforeEach(() => {
      windowSpy = vi.spyOn(window, "window", "get")
    })

    afterEach(() => {
      windowSpy.mockRestore()
    })

    it("creates empty tree except for a skeleton", () => {
      windowSpy.mockImplementation(() => ({
        location: {
          search: "",
        },
      }))
      const empty = AppRoot.empty(FAKE_SCRIPT_HASH)

      expect(empty.main.children.length).toBe(1)
      const child = GetNodeByDeltaPathVisitor.getNodeAtPath(empty.main, [
        0,
      ]) as ElementNode
      expect(child.element.skeleton).not.toBeNull()

      expect(empty.sidebar.isEmpty).toBe(true)
    })

    it("sets the main script hash and active script hash", () => {
      windowSpy.mockImplementation(() => ({
        location: {
          search: "",
        },
      }))
      const empty = AppRoot.empty(FAKE_SCRIPT_HASH)

      expect(empty.mainScriptHash).toBe(FAKE_SCRIPT_HASH)
      expect(empty.main.activeScriptHash).toBe(FAKE_SCRIPT_HASH)
      expect(empty.sidebar.activeScriptHash).toBe(FAKE_SCRIPT_HASH)
      expect(empty.event.activeScriptHash).toBe(FAKE_SCRIPT_HASH)
      expect(empty.bottom.activeScriptHash).toBe(FAKE_SCRIPT_HASH)
      expect(empty.root.activeScriptHash).toBe(FAKE_SCRIPT_HASH)
    })

    it("creates empty tree with no loading screen if query param is set", () => {
      windowSpy.mockImplementation(() => ({
        location: {
          search: "?embed_options=hide_loading_screen",
        },
      }))

      const empty = AppRoot.empty(FAKE_SCRIPT_HASH)

      expect(empty.main.isEmpty).toBe(true)
      expect(empty.sidebar.isEmpty).toBe(true)
    })

    it("creates empty tree with v1 loading screen if query param is set", () => {
      windowSpy.mockImplementation(() => ({
        location: {
          search: "?embed_options=show_loading_screen_v1",
        },
      }))

      const empty = AppRoot.empty(FAKE_SCRIPT_HASH)

      expect(empty.main.children.length).toBe(1)
      const child = GetNodeByDeltaPathVisitor.getNodeAtPath(empty.main, [
        0,
      ]) as ElementNode
      expect(child.element.alert).toBeDefined()

      expect(empty.sidebar.isEmpty).toBe(true)
    })

    it("creates empty tree with v2 loading screen if query param is set", () => {
      windowSpy.mockImplementation(() => ({
        location: {
          search: "?embed_options=show_loading_screen_v2",
        },
      }))

      const empty = AppRoot.empty(FAKE_SCRIPT_HASH)

      expect(empty.main.children.length).toBe(1)
      const child = GetNodeByDeltaPathVisitor.getNodeAtPath(empty.main, [
        0,
      ]) as ElementNode
      expect(child.element.skeleton).not.toBeNull()

      expect(empty.sidebar.isEmpty).toBe(true)
    })

    it("creates empty tree with no loading screen if query param is v1 and it's not first load", () => {
      windowSpy.mockImplementation(() => ({
        location: {
          search: "?embed_options=show_loading_screen_v1",
        },
      }))

      const empty = AppRoot.empty(FAKE_SCRIPT_HASH, false)

      expect(empty.main.isEmpty).toBe(true)
      expect(empty.sidebar.isEmpty).toBe(true)
    })

    it("passes logo to new Root if empty is called with logo", () => {
      windowSpy.mockImplementation(() => ({
        location: {
          search: "",
        },
      }))
      const logo = LogoProto.create({
        image:
          "https://global.discourse-cdn.com/business7/uploads/streamlit/original/2X/8/8cb5b6c0e1fe4e4ebfd30b769204c0d30c332fec.png",
      })

      // Replicate .empty call on initial render
      const empty = AppRoot.empty("", true)
      expect(empty.logo).toBeNull()

      // Replicate .empty call in AppNav's clearPageElements for MPA V1
      const empty2 = AppRoot.empty(FAKE_SCRIPT_HASH, false, undefined, logo)
      expect(empty2.logo).not.toBeNull()
    })
  })

  describe("AppRoot.filterMainScriptElements", () => {
    it("does not clear nodes associated with main script hash", () => {
      // Add a new element and clear stale nodes
      const delta = makeProto(DeltaProto, {
        newElement: { text: { body: "newElement!" } },
      })
      const newRoot = ROOT.applyDelta(
        "new_session_id",
        delta,
        forwardMsgMetadata([0, 1, 1])
      ).filterMainScriptElements(FAKE_SCRIPT_HASH)

      // We should now only have a single element, inside a single block
      expect(
        GetNodeByDeltaPathVisitor.getNodeAtPath(newRoot.main, [1, 1])
      ).toBeTextNode("newElement!")
      expect(newRoot.getElements().size).toBe(3)
    })

    it("clears nodes not associated with main script hash", () => {
      // Add a new element and clear stale nodes
      const delta = makeProto(DeltaProto, {
        newElement: { text: { body: "newElement!" } },
      })
      const newRoot = ROOT.applyDelta(
        "new_session_id",
        delta,
        forwardMsgMetadata([0, 1, 1], "DIFFERENT_HASH")
      ).filterMainScriptElements(FAKE_SCRIPT_HASH)

      // We should now only have a single element, inside a single block
      expect(
        GetNodeByDeltaPathVisitor.getNodeAtPath(newRoot.main, [1, 1])
      ).toBeUndefined()
      expect(newRoot.getElements().size).toBe(2)
    })
  })

  describe("AppRoot.applyDelta", () => {
    it("handles 'newElement' deltas", () => {
      const delta = makeProto(DeltaProto, {
        newElement: { text: { body: "newElement!" } },
      })
      const newRoot = ROOT.applyDelta(
        "new_session_id",
        delta,
        forwardMsgMetadata([0, 1, 1])
      )

      const newNode = GetNodeByDeltaPathVisitor.getNodeAtPath(
        newRoot.main,
        [1, 1]
      ) as ElementNode
      expect(newNode).toBeTextNode("newElement!")

      // Check that our new scriptRunId has been set only on the touched nodes
      expect(newRoot.main.scriptRunId).toBe("new_session_id")
      expect(newRoot.main.fragmentId).toBe(undefined)
      expect(newRoot.main.deltaMsgReceivedAt).toBe(undefined)
      expect(
        GetNodeByDeltaPathVisitor.getNodeAtPath(newRoot.main, [0])?.scriptRunId
      ).toBe(NO_SCRIPT_RUN_ID)
      expect(
        GetNodeByDeltaPathVisitor.getNodeAtPath(newRoot.main, [1])?.scriptRunId
      ).toBe("new_session_id")
      expect(
        GetNodeByDeltaPathVisitor.getNodeAtPath(newRoot.main, [1, 0])
          ?.scriptRunId
      ).toBe(NO_SCRIPT_RUN_ID)
      expect(
        GetNodeByDeltaPathVisitor.getNodeAtPath(newRoot.main, [1, 1])
          ?.scriptRunId
      ).toBe("new_session_id")
      expect(newNode.activeScriptHash).toBe(FAKE_SCRIPT_HASH)
      expect(newRoot.sidebar.scriptRunId).toBe(NO_SCRIPT_RUN_ID)
    })

    it("handles 'addBlock' deltas", () => {
      const delta = makeProto(DeltaProto, { addBlock: {} })
      const newRoot = ROOT.applyDelta(
        "new_session_id",
        delta,
        forwardMsgMetadata([0, 1, 1])
      )

      const newNode = GetNodeByDeltaPathVisitor.getNodeAtPath(
        newRoot.main,
        [1, 1]
      ) as BlockNode
      expect(newNode).toBeDefined()

      // Check that our new scriptRunId has been set only on the touched nodes
      expect(newRoot.main.scriptRunId).toBe("new_session_id")
      expect(newRoot.main.fragmentId).toBe(undefined)
      expect(newRoot.main.deltaMsgReceivedAt).toBe(undefined)
      expect(
        GetNodeByDeltaPathVisitor.getNodeAtPath(newRoot.main, [0])?.scriptRunId
      ).toBe(NO_SCRIPT_RUN_ID)
      expect(
        GetNodeByDeltaPathVisitor.getNodeAtPath(newRoot.main, [1])?.scriptRunId
      ).toBe("new_session_id")
      expect(
        GetNodeByDeltaPathVisitor.getNodeAtPath(newRoot.main, [1, 0])
          ?.scriptRunId
      ).toBe(NO_SCRIPT_RUN_ID)
      expect(
        GetNodeByDeltaPathVisitor.getNodeAtPath(newRoot.main, [1, 1])
          ?.scriptRunId
      ).toBe("new_session_id")
      expect(newNode.activeScriptHash).toBe(FAKE_SCRIPT_HASH)
      expect(newRoot.sidebar.scriptRunId).toBe(NO_SCRIPT_RUN_ID)
    })

    it("handles 'newTransient' deltas", () => {
      const delta = makeProto(DeltaProto, {
        newTransient: {
          elements: [{ text: { body: "transientElement!" } }],
        },
      })
      const newRoot = ROOT.applyDelta(
        "new_session_id",
        delta,
        forwardMsgMetadata([0, 1, 1])
      )

      const newNode = GetNodeByDeltaPathVisitor.getNodeAtPath(
        newRoot.main,
        [1, 1]
      ) as TransientNode
      expect(newNode).toBeInstanceOf(TransientNode)
      expect(newNode.transientNodes).toHaveLength(1)
      expect(newNode.transientNodes[0]).toBeTextNode("transientElement!")

      // Check that our new scriptRunId has been set only on the touched nodes
      expect(newRoot.main.scriptRunId).toBe("new_session_id")
      expect(
        GetNodeByDeltaPathVisitor.getNodeAtPath(newRoot.main, [0])?.scriptRunId
      ).toBe(NO_SCRIPT_RUN_ID)
      expect(
        GetNodeByDeltaPathVisitor.getNodeAtPath(newRoot.main, [1])?.scriptRunId
      ).toBe("new_session_id")
      expect(newNode.scriptRunId).toBe("new_session_id")
      expect(newRoot.sidebar.scriptRunId).toBe(NO_SCRIPT_RUN_ID)
    })

    it("removes a block's children if the block type changes for the same delta path", () => {
      const newRoot = ROOT.applyDelta(
        "script_run_id",
        makeProto(DeltaProto, {
          addBlock: {
            expandable: {
              expanded: true,
              label: "label",
              icon: "",
            },
          },
        }),
        forwardMsgMetadata([0, 1, 1])
      ).applyDelta(
        "script_run_id",
        makeProto(DeltaProto, {
          newElement: { text: { body: "newElement!" } },
        }),
        forwardMsgMetadata([0, 1, 1, 0])
      )

      const newNode = GetNodeByDeltaPathVisitor.getNodeAtPath(
        newRoot.main,
        [1, 1]
      ) as BlockNode
      expect(newNode).toBeDefined()
      expect(newNode.deltaBlock.type).toBe("expandable")
      expect(newNode.children.length).toBe(1)

      const newRoot2 = newRoot.applyDelta(
        "new_script_run_id",
        makeProto(DeltaProto, {
          addBlock: {
            tabContainer: {},
          },
        }),
        forwardMsgMetadata([0, 1, 1])
      )

      const replacedBlock = GetNodeByDeltaPathVisitor.getNodeAtPath(
        newRoot2.main,
        [1, 1]
      ) as BlockNode
      expect(replacedBlock).toBeDefined()
      expect(replacedBlock.deltaBlock.type).toBe("tabContainer")
      expect(replacedBlock.children.length).toBe(0)
    })

    it("will not remove a block's children if the block type is the same for the same delta path", () => {
      const newRoot = ROOT.applyDelta(
        "script_run_id",
        makeProto(DeltaProto, {
          addBlock: {
            expandable: {
              expanded: true,
              label: "label",
              icon: "",
            },
          },
        }),
        forwardMsgMetadata([0, 1, 1])
      ).applyDelta(
        "script_run_id",
        makeProto(DeltaProto, {
          newElement: { text: { body: "newElement!" } },
        }),
        forwardMsgMetadata([0, 1, 1, 0])
      )

      const newNode = GetNodeByDeltaPathVisitor.getNodeAtPath(
        newRoot.main,
        [1, 1]
      ) as BlockNode
      expect(newNode).toBeDefined()
      expect(newNode.deltaBlock.type).toBe("expandable")
      expect(newNode.children.length).toBe(1)

      const newRoot2 = newRoot.applyDelta(
        "new_script_run_id",
        makeProto(DeltaProto, {
          addBlock: {
            expandable: {
              expanded: true,
              label: "other label",
              icon: "",
            },
          },
        }),
        forwardMsgMetadata([0, 1, 1])
      )

      const replacedBlock = GetNodeByDeltaPathVisitor.getNodeAtPath(
        newRoot2.main,
        [1, 1]
      ) as BlockNode
      expect(replacedBlock).toBeDefined()
      expect(replacedBlock.deltaBlock.type).toBe("expandable")
      expect(replacedBlock.children.length).toBe(1)
    })

    it("specifies active script hash on 'newElement' deltas", () => {
      const delta = makeProto(DeltaProto, {
        newElement: { text: { body: "newElement!" } },
      })
      const NEW_FAKE_SCRIPT_HASH = "new_fake_script_hash"
      const newRoot = ROOT.applyDelta(
        "new_session_id",
        delta,
        forwardMsgMetadata([0, 1, 1], NEW_FAKE_SCRIPT_HASH)
      )

      const newNode = GetNodeByDeltaPathVisitor.getNodeAtPath(
        newRoot.main,
        [1, 1]
      ) as ElementNode
      expect(newNode).toBeDefined()

      // Check that our new other nodes are not affected by the new script hash
      expect(
        GetNodeByDeltaPathVisitor.getNodeAtPath(newRoot.main, [1, 0])
          ?.activeScriptHash
      ).toBe(FAKE_SCRIPT_HASH)
      expect(newNode.activeScriptHash).toBe(NEW_FAKE_SCRIPT_HASH)
    })

    it("specifies active script hash on 'addBlock' deltas", () => {
      const delta = makeProto(DeltaProto, { addBlock: {} })
      const NEW_FAKE_SCRIPT_HASH = "new_fake_script_hash"
      const newRoot = ROOT.applyDelta(
        "new_session_id",
        delta,
        forwardMsgMetadata([0, 1, 1], NEW_FAKE_SCRIPT_HASH)
      )

      const newNode = GetNodeByDeltaPathVisitor.getNodeAtPath(
        newRoot.main,
        [1, 1]
      ) as BlockNode
      expect(newNode).toBeDefined()

      // Check that our new scriptRunId has been set only on the touched nodes
      expect(
        GetNodeByDeltaPathVisitor.getNodeAtPath(newRoot.main, [1, 0])
          ?.activeScriptHash
      ).toBe(FAKE_SCRIPT_HASH)
      expect(newNode.activeScriptHash).toBe(NEW_FAKE_SCRIPT_HASH)
    })

    it("can set fragmentId in 'newElement' deltas", () => {
      const delta = makeProto(DeltaProto, {
        newElement: { text: { body: "newElement!" } },
        fragmentId: "myFragmentId",
      })
      const newRoot = ROOT.applyDelta(
        "new_session_id",
        delta,
        forwardMsgMetadata([0, 1, 1])
      )

      const newNode = GetNodeByDeltaPathVisitor.getNodeAtPath(
        newRoot.main,
        [1, 1]
      ) as ElementNode
      expect(newNode.fragmentId).toBe("myFragmentId")
    })

    it("can set fragmentId in 'addBlock' deltas", () => {
      const delta = makeProto(DeltaProto, {
        addBlock: {},
        fragmentId: "myFragmentId",
      })
      const newRoot = ROOT.applyDelta(
        "new_session_id",
        delta,
        forwardMsgMetadata([0, 1, 1])
      )

      const newNode = GetNodeByDeltaPathVisitor.getNodeAtPath(
        newRoot.main,
        [1, 1]
      ) as BlockNode
      expect(newNode.fragmentId).toBe("myFragmentId")
    })

    it("timestamp is set on BlockNode as message id", () => {
      const timestamp = new Date(Date.UTC(2017, 1, 14)).valueOf()
      Date.now = vi.fn(() => timestamp)
      const delta = makeProto(DeltaProto, {
        addBlock: {},
      })
      const newRoot = ROOT.applyDelta(
        "new_session_id",
        delta,
        forwardMsgMetadata([0, 1, 1])
      )

      const newNode = GetNodeByDeltaPathVisitor.getNodeAtPath(
        newRoot.main,
        [1, 1]
      ) as BlockNode
      expect(newNode.deltaMsgReceivedAt).toBe(timestamp)
    })
  })

  describe("AppRoot.clearStaleNodes", () => {
    it("clears stale nodes", () => {
      // Add a new element and clear stale nodes
      const delta = makeProto(DeltaProto, {
        newElement: { text: { body: "newElement!" } },
      })
      const newRoot = ROOT.applyDelta(
        "new_session_id",
        delta,
        forwardMsgMetadata([0, 1, 1])
      ).clearStaleNodes("new_session_id", [])

      // We should now only have a single element, inside a single block
      expect(
        GetNodeByDeltaPathVisitor.getNodeAtPath(newRoot.main, [0, 0])
      ).toBeTextNode("newElement!")
      expect(newRoot.getElements().size).toBe(1)
    })

    it("clears a stale logo", () => {
      const logo = LogoProto.create({
        image:
          "https://global.discourse-cdn.com/business7/uploads/streamlit/original/2X/8/8cb5b6c0e1fe4e4ebfd30b769204c0d30c332fec.png",
      })
      const newRoot = ROOT.appRootWithLogo(logo, {
        activeScriptHash: "hash",
        scriptRunId: "script_run_id",
      })
      expect(newRoot.logo).not.toBeNull()

      const newNewRoot = newRoot.clearStaleNodes("new_script_run_id", [])
      expect(newNewRoot.logo).toBeNull()
    })

    it("does not clear logo on fragment run", () => {
      const logo = LogoProto.create({
        image:
          "https://global.discourse-cdn.com/business7/uploads/streamlit/original/2X/8/8cb5b6c0e1fe4e4ebfd30b769204c0d30c332fec.png",
      })
      const newRoot = ROOT.appRootWithLogo(logo, {
        activeScriptHash: "hash",
        scriptRunId: "script_run_id",
      })
      expect(newRoot.logo).not.toBeNull()

      const newNewRoot = newRoot.clearStaleNodes("new_script_run_id", [
        "my_fragment_id",
      ])
      expect(newNewRoot.logo).not.toBeNull()
    })

    it("handles currentFragmentId correctly", () => {
      const tabContainerProto = makeProto(DeltaProto, {
        addBlock: { tabContainer: {}, allowEmpty: false },
        fragmentId: "my_fragment_id",
      })
      const tab1 = makeProto(DeltaProto, {
        addBlock: { tab: { label: "tab1" }, allowEmpty: true },
        fragmentId: "my_fragment_id",
      })
      const tab2 = makeProto(DeltaProto, {
        addBlock: { tab: { label: "tab2" }, allowEmpty: true },
        fragmentId: "my_fragment_id",
      })

      // const BLOCK = block([text("1"), block([text("2")])])
      const root = AppRoot.empty(FAKE_SCRIPT_HASH)
        // Block not corresponding to my_fragment_id. Should be preserved.
        .applyDelta(
          "old_session_id",
          makeProto(DeltaProto, { addBlock: { allowEmpty: true } }),
          forwardMsgMetadata([0, 0])
        )
        // Element in block unrelated to my_fragment_id. Should be preserved.
        .applyDelta(
          "old_session_id",
          makeProto(DeltaProto, {
            newElement: { text: { body: "oldElement!" } },
          }),
          forwardMsgMetadata([0, 0, 0])
        )
        // Another element in block unrelated to my_fragment_id. Should be preserved.
        .applyDelta(
          "old_session_id",
          makeProto(DeltaProto, {
            newElement: { text: { body: "oldElement2!" } },
            fragmentId: "other_fragment_id",
          }),
          forwardMsgMetadata([0, 0, 1])
        )
        // Old element related to my_fragment_id but in an unrelated block. Should be preserved.
        .applyDelta(
          "old_session_id",
          makeProto(DeltaProto, {
            newElement: { text: { body: "oldElement4!" } },
            fragmentId: "my_fragment_id",
          }),
          forwardMsgMetadata([0, 0, 2])
        )
        // Block corresponding to my_fragment_id
        .applyDelta(
          "new_session_id",
          makeProto(DeltaProto, {
            addBlock: { allowEmpty: false },
            fragmentId: "my_fragment_id",
          }),
          forwardMsgMetadata([0, 1])
        )
        // Old element related to my_fragment_id. Should be pruned.
        .applyDelta(
          "old_session_id",
          makeProto(DeltaProto, {
            newElement: { text: { body: "oldElement3!" } },
            fragmentId: "my_fragment_id",
          }),
          forwardMsgMetadata([0, 1, 0])
        )
        // New element related to my_fragment_id. Should be preserved.
        .applyDelta(
          "new_session_id",
          makeProto(DeltaProto, {
            newElement: { text: { body: "newElement!" } },
            fragmentId: "my_fragment_id",
          }),
          forwardMsgMetadata([0, 1, 1])
        )
        // New element container related to my_fragment_id, having children which will be handled individually
        // Create a tab container with two tabs in the old session; then send new delta with the container and
        // only one tab. The second tab with the old_session_id should be pruned.
        .applyDelta(
          "old_session_id",
          tabContainerProto,
          forwardMsgMetadata([0, 2])
        )
        .applyDelta("old_session_id", tab1, forwardMsgMetadata([0, 2, 0]))
        .applyDelta("old_session_id", tab2, forwardMsgMetadata([0, 2, 1]))
        .applyDelta(
          "new_session_id",
          tabContainerProto,
          forwardMsgMetadata([0, 2])
        )
        .applyDelta("new_session_id", tab1, forwardMsgMetadata([0, 2, 0]))

      const pruned = root.clearStaleNodes("new_session_id", ["my_fragment_id"])

      expect(
        GetNodeByDeltaPathVisitor.getNodeAtPath(pruned.main, [0])
      ).toBeInstanceOf(BlockNode)
      expect(
        (
          GetNodeByDeltaPathVisitor.getNodeAtPath(pruned.main, [
            0,
          ]) as BlockNode
        ).children
      ).toHaveLength(3)
      expect(
        GetNodeByDeltaPathVisitor.getNodeAtPath(pruned.main, [0, 0])
      ).toBeTextNode("oldElement!")
      expect(
        GetNodeByDeltaPathVisitor.getNodeAtPath(pruned.main, [0, 1])
      ).toBeTextNode("oldElement2!")
      expect(
        GetNodeByDeltaPathVisitor.getNodeAtPath(pruned.main, [0, 2])
      ).toBeTextNode("oldElement4!")

      expect(
        GetNodeByDeltaPathVisitor.getNodeAtPath(pruned.main, [1])
      ).toBeInstanceOf(BlockNode)
      expect(
        (
          GetNodeByDeltaPathVisitor.getNodeAtPath(pruned.main, [
            1,
          ]) as BlockNode
        ).children
      ).toHaveLength(1)
      expect(
        GetNodeByDeltaPathVisitor.getNodeAtPath(pruned.main, [1, 0])
      ).toBeTextNode("newElement!")

      expect(
        GetNodeByDeltaPathVisitor.getNodeAtPath(pruned.main, [2])
      ).toBeInstanceOf(BlockNode)
      expect(
        (
          GetNodeByDeltaPathVisitor.getNodeAtPath(pruned.main, [
            2,
          ]) as BlockNode
        ).children
      ).toHaveLength(1)
      expect(
        (
          GetNodeByDeltaPathVisitor.getNodeAtPath(
            pruned.main,
            [2, 0]
          ) as BlockNode
        ).deltaBlock.tab?.label
      ).toContain("tab1")
    })

    it("clear childNodes of a block node in fragment run", () => {
      // Add a new element and clear stale nodes
      const delta = makeProto(DeltaProto, {
        newElement: { text: { body: "newElement!" } },
        fragmentId: "my_fragment_id",
      })
      const newRoot = AppRoot.empty(FAKE_SCRIPT_HASH)
        // Block corresponding to my_fragment_id
        .applyDelta(
          "new_session_id",
          makeProto(DeltaProto, {
            addBlock: { vertical: {}, allowEmpty: false },
            fragmentId: "my_fragment_id",
          }),
          forwardMsgMetadata([0, 0])
        )
        .applyDelta("new_session_id", delta, forwardMsgMetadata([0, 0, 0]))
        // Block with child where scriptRunId is different
        .applyDelta(
          "new_session_id",
          makeProto(DeltaProto, {
            addBlock: { vertical: {}, allowEmpty: false },
            fragmentId: "my_fragment_id",
          }),
          forwardMsgMetadata([0, 1])
        )
        .applyDelta("new_session_id", delta, forwardMsgMetadata([0, 1, 0]))
        .applyDelta("new_session_id", delta, forwardMsgMetadata([0, 1, 1]))
        // this child is a nested fragment_id from an old run and should be pruned
        .applyDelta(
          "old_session_id",
          makeProto(DeltaProto, {
            newElement: { text: { body: "oldElement!" } },
            fragmentId: "my_nested_fragment_id",
          }),
          forwardMsgMetadata([0, 1, 2])
        )
        // this child is a nested fragment_id from the same run and should be preserved
        .applyDelta(
          "new_session_id",
          makeProto(DeltaProto, {
            newElement: { text: { body: "newElement!" } },
            fragmentId: "my_nested_fragment_id",
          }),
          forwardMsgMetadata([0, 1, 3])
        )

      expect(
        (
          GetNodeByDeltaPathVisitor.getNodeAtPath(newRoot.main, [
            1,
          ]) as BlockNode
        ).children
      ).toHaveLength(4)

      const pruned = newRoot.clearStaleNodes("new_session_id", [
        "my_fragment_id",
      ])

      expect(
        GetNodeByDeltaPathVisitor.getNodeAtPath(pruned.main, [0])
      ).toBeInstanceOf(BlockNode)
      expect(
        (
          GetNodeByDeltaPathVisitor.getNodeAtPath(pruned.main, [
            0,
          ]) as BlockNode
        ).children
      ).toHaveLength(1)
      expect(
        GetNodeByDeltaPathVisitor.getNodeAtPath(pruned.main, [1])
      ).toBeInstanceOf(BlockNode)
      // the stale nested fragment child should have been pruned
      expect(
        (
          GetNodeByDeltaPathVisitor.getNodeAtPath(pruned.main, [
            1,
          ]) as BlockNode
        ).children
      ).toHaveLength(3)
    })

    it("uses ClearStaleNodeVisitor internally", () => {
      // Create a more complex tree with multiple nodes
      const delta1 = makeProto(DeltaProto, {
        newElement: { text: { body: "element1" } },
      })
      const delta2 = makeProto(DeltaProto, {
        newElement: { text: { body: "element2" } },
      })

      // Add elements with different script run IDs
      const rootWithElements = ROOT.applyDelta(
        "run_id_1",
        delta1,
        forwardMsgMetadata([0, 0])
      ).applyDelta("run_id_2", delta2, forwardMsgMetadata([0, 1]))

      // Before clearing: should have both elements
      expect(rootWithElements.getElements().size).toBe(2) // 2 new elements

      // Clear stale nodes - only keep elements from run_id_2
      const clearedRoot = rootWithElements.clearStaleNodes("run_id_2", [])

      // After clearing: should only have element2 (from run_id_2)
      expect(clearedRoot.getElements().size).toBe(1)
      expect(
        GetNodeByDeltaPathVisitor.getNodeAtPath(clearedRoot.main, [0])
      ).toBeTextNode("element2")
    })

    it("preserves non-stale nodes during visitor traversal", () => {
      const delta = makeProto(DeltaProto, {
        newElement: { text: { body: "current_element" } },
      })
      const currentRunId = "current_run"

      const rootWithCurrent = ROOT.applyDelta(
        currentRunId,
        delta,
        forwardMsgMetadata([0, 0])
      )

      // Clear stale nodes with same run ID - element should be preserved
      const clearedRoot = rootWithCurrent.clearStaleNodes(currentRunId, [])

      expect(
        GetNodeByDeltaPathVisitor.getNodeAtPath(clearedRoot.main, [0])
      ).toBeTextNode("current_element")
      expect(clearedRoot.getElements().size).toBe(1)
    })
  })

  describe("AppRoot.getElements", () => {
    it("returns all elements using ElementsSetVisitor", () => {
      // We have elements at main.[0] and main.[1, 0]
      expect(ROOT.getElements()).toEqual(
        new Set([
          (
            GetNodeByDeltaPathVisitor.getNodeAtPath(ROOT.main, [
              0,
            ]) as ElementNode
          ).element,
          (
            GetNodeByDeltaPathVisitor.getNodeAtPath(
              ROOT.main,
              [1, 0]
            ) as ElementNode
          ).element,
        ])
      )
    })
    it("uses visitor pattern internally", () => {
      // Create a more complex structure to test visitor traversal
      const delta1 = makeProto(DeltaProto, {
        newElement: { text: { body: "main_element" } },
      })
      const delta2 = makeProto(DeltaProto, {
        newElement: { text: { body: "sidebar_element" } },
      })
      const rootWithElements = ROOT.applyDelta(
        "test_run",
        delta1,
        forwardMsgMetadata([0, 0]) // main section
      ).applyDelta(
        "test_run",
        delta2,
        forwardMsgMetadata([1, 0]) // sidebar section
      )
      const elements = rootWithElements.getElements()
      // Should find elements from main, sidebar, and the original ROOT elements
      // one new insert overwrote an existing main element; the sidebar insert
      // added a new one
      expect(elements.size).toBe(3)
      // Verify we can find the sidebar element specifically
      const elementsArray = Array.from(elements)
      const sidebarElement = elementsArray.find(
        el => el.text?.body === "sidebar_element"
      )
      expect(sidebarElement).toBeDefined()
    })

    it("demonstrates visitor pattern flexibility", () => {
      // Show that we can use ElementsSetVisitor directly on parts of the tree
      const mainElements = ElementsSetVisitor.collectElements(ROOT.main)
      const sidebarElements = ElementsSetVisitor.collectElements(ROOT.sidebar)
      // Should have elements in main, none in sidebar for basic ROOT
      expect(mainElements.size).toBe(2) // The original elements from ROOT
      expect(sidebarElements.size).toBe(0)
      // Combined should equal getElements() result
      const combinedSize = mainElements.size + sidebarElements.size
      expect(ROOT.getElements().size).toBe(combinedSize)
    })
  })

  describe("AppRoot.debug", () => {
    it("prints labeled child sections with tree output", () => {
      const out = ROOT.debug()
      // Header
      expect(out.startsWith("AppRoot\n")).toBe(true)
      // main
      expect(out).toContain("├── main:\n")
      expect(out).toContain("│   └── BlockNode [2 children]")
      expect(out).toContain('ElementNode [text] "1"')
      expect(out).toContain('ElementNode [text] "2"')
      // sidebar
      expect(out).toContain("├── sidebar:\n")
      expect(out).toContain("│   └── BlockNode [0 children]")
      // event
      expect(out).toContain("├── event:\n")
      expect(out).toContain("│   └── BlockNode [0 children]")
      // bottom
      expect(out).toContain("└── bottom:\n")
      expect(out).toContain("    └── BlockNode [0 children]")
    })
  })
})
